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AUTOMATIC AQUARIUM FISH FEEDER
A Project Study
Presented to the Faculty of the
College of Technology
University of Southeastern Philippines
Obrero, Davao City
In Partial Fulfillment
of the requirements for the degree
Bachelor in Computer Technology
AARON OLIVER R. BANGUISJOHN MARTIN O. VALERO
JEAN G. PAROHINOGJEFFREY M. MACEDAKHAMAR B. BATARA
November 2009
APPROVAL SHEET
This Project Study entitled “AUTOMATIC AQUARIUM FISH FEEDER” prepared and submitted by, Aaron Oliver R. Banguis, John Martin O. Valero, Jean G. Parohinog, Jeffrey M. Maceda, Khamar B. Batara in partial fulfillment of the requirements for the degree, Bachelor in Computer Technology, has been examined and recommended for approval and acceptance.
ROBERTO A. DENILA, MTAdviser
PANEL OF EXAMINERS
APPROVED by the Committee on Oral Examination with a grade of ___1.5___.
MICHAEL G. CALAGO, MVE MICHAEL V. MACHICA, MIT
Chairman Member
ACCEPTED in partial fulfillment of the requirements for the degree, Bachelor in Computer Technology.
ROBERTO A. DENILA, MT ANNWEDA C. MINA, Ed.D
Program Head Dean
ACKNOWLEDGMENT
Our deepest gratitude and appreciation to the following persons
who helped us in different ways to make our undertakings came to
reality;
We would like to thank our Almighty God for giving us the
knowledge and strength in fulfilling this research;
The College of Technology Dean, Dr. Annweda C. Mina, for her
approval of this study;
To Mr. Jayson T. Sasotil our subject adviser for his untiring
support, patience, guidance and as well as his encouragement which
helped us a lot in improving our project study;
To Prof. Roberto A. Denila, who gave his patience, brilliant
opinions and constructive criticisms that made this study possible and
advice that contributed much to the improvement and success of the
study;
To Mr. Michael G. Calago and Engr. Michael V. Machica for their
critical evaluations and suggestions for the betterment of the project;
To our fellow students, classmates and friends for giving us their
time and ideas in making this research;
To our loving and understanding families; for their underlying
sacrifices, financial and moral support, for without them this research
would not be made into reality.
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The Researchers
ABSTRACT
The project study entitled “Automatic Aquarium Fish
Feeder”. Feeding the animals is one of the essential missions of man
here on Earth. For animals needed the care of human to live, even
though they can live on there own. As man have the power to rule over
the things but not to abuse it. Pet is what the usual call of the animals
being took care of man. One of man’s favorite pet is fishes. In which
are kept in the aquarium tank to be seen by many people as
decorations or a lucky charm for business men, others just love to have
one. This project study is focused on designing, constructing and
testing its functionality an Automatic Aquarium Fish Feeder that would
feed the different types of fishes with a microcontroller that would
serve as an alarm clock to feed the fishes.
The completed project would help hobbyist having fun with
friends, window shopping for an hour or having a long time vacation
without having to worry about their pets and the health of the fishes.
The project study findings revealed that the device can be used
as an effective feeding device for aqua culture and aquarium
enthusiast in keeping their pets well nourish and providing them the
exact nutrients their pet needs. They can also include any medicinal
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food, when their pets got sick. So they can sell their fishes on a higher
value as the time comes.
TABLE OF CONTENTS
PAGE
TITLE PAGE i
APPROVAL SHEET ii
ACKNOWLEDGMENT iii
ABSTRACT iv
TABLE OF CONTENTS v
LIST OF TABLES vii
LIST OF FIGURES viii
CHAPTER
1 INTRODUCTION
A. Origin and Justification 1
B. Objectives of the Study 2
C. Scope and Delimitation of the Project Study 2
2 RELATED LITERATURE AND CONCEPTUAL FRAMEWORK
A. Review of Related Literature 3
B. Review of Related Studies 6
v
C. Conceptual Model 8
D. Definition of Variables 9
3 DEVELOPMENT OF THE STUDY
A. Project Profile 10
B. Supplies and Materials 11
C. Tools and Equipment 12
D. Construction Procedures 14
E. Try-out and Revision 20
F. Construction Time Frame 21
G. Summary of the Sources of Cost 22
4 DESCRIPTION OF THE COMPLETED PROJECT
A. Structure 23
1. Features 23
B. Parts, Functions and Interrelationships 24
5 SUMMARY, CONCLUSION AND RECOMMENDATIONS
A. Summary 26
B. Conclusion 26
C. Recommendations 26
Bibliography 28
Curriculum Vitae
vi
LIST OF TABLES
Table Description Page
1 Supplies and Materials 12
2 Tools and Equipments 13
3 Try-out and Revision 17
4 Construction Time Frame 18
5 Summary of the Sources and Costs 19
6 Major Components 22
vii
LIST OF FIGURES
Figure Description Page
1 Conceptual Model of the Study 9
2 Schematic Diagram of the Project 16
3 Completed Project 17a
4 Interrelationship of the Parts 21
Chapter 1
INTRODUCTION
This chapter includes the origin and justification of the study,
objectives, significance, scope and delimitation.
A. Origin and Justification
Feeding the animals is one of the essential missions of man here
on Earth. For animals needed the care of human to live, even though
they can live on there own. As man have the power to rule over the
things but not to abuse it. Pet is what the usual call of the animals
being took care of man. One of man’s favorite pet is fishes. In which
are kept in the aquarium tank to be seen by many people as
decorations or a lucky charm for business men, others just love to have
one. Aquarium fishes is always been a popular hobby. Be it in your
home or in your office, a beautiful fish tank is indeed a wonderful sight.
An aquarium is a tank, pool or bowl filled with water for keeping
live fish and underwater animals. Appropriate water quality and other
characteristics suitable for the aquarium’s residents. And with this
equipments it would not only benefited the human to its mission for
the betterment of all species especially the fish pet, to make their lives
grow longer and keep their health in good condition.
B. Objectives of the study
1. To design and construct an Automatic Aquarium Fish Feeder.
2. To test the functionality of the Automatic Aquarium Fish Feeder.
3. To revise defects found during testing.
C. Scope and Delimitation of the Study
This device is operated by AC to DC adapter with a 12V supply
that could be able to change the contacts of the relay to switch the
12V motor ON and open the close sliding door of the device while the
spring will prevent it to rotate 360 degrees. It has an LPT male port to
be connected to the computer printer to control the time of the feeding
process. The program has to feed the fish in the aquarium either, for
two times a day which is equal to 12 hours a day or three times a day
or every eight hours. Varies on the types of the fishes to feed, whether
it is big or small fishes.
2
Chapter 2
REVIEW OF RELATED LITERATURE AND RELATED STUDIES
A. Review of the Related Literature
The researchers come up with the idea of having this project
study through the aid of the following related literatures and studies.
Feeds and feeding of fish depend upon the type of farming system
used: extensive, semi-intensive or intensive. In the first two systems,
fish derive all or a substantial part of their nutrients from natural food
organisms in culture ponds. Fish and shrimp maintained in intensive
fish culture systems (tanks, raceways and cages) are totally dependent
on the provision of nutritionally complete diets produced in either a dry
or a semi-moist form. Formulated feeds are produced either by steam
or cold pressure pellets or by an extrusion process in various physical
forms and shape and of different buoyancies (floating, slow- or fast-
sinking). For example, catfish, salmon and shrimp require floating,
slow-sinking and fast-sinking feeds, respectively. Proper feed
distribution in necessary to achieve a better feed efficiency.
M. F. Fuller, (2004) proved that the body temperature and
metabolic rate of cold-blooded fish are commensurate with the water
temperature. The amount of feed offered to fish per day has been
based on feeding tables developed on the basis of a percentage of
body weight and water temperature. Small fish, often called fry or
fingerlings, require feed at a greater percentage of their body weight
(greater than five percent) per day than large fish. Demand or ad
libitum feeding is commonly used in hatcheries where demand feeders
dispense small quantities of feed when activated by the fish. Automatic
feeders or hand feeding are used to feed fish in tanks or sea cages and
their feeding behavior may be monitored by video cameras. Frequency
of feeding is important: larval fish and fry are offered a small amount
of feed more than 12 times per day and the frequency is gradually
decreased to one to three times per day more time is required to feed
fish at low temperatures.
Mosig, et al., (2004) explain that another mechanical feeding
option to have an automatic feeders set over the ponds, cages or
tanks. These can be timed to deliver a given amount of feed at set
times. Some species will learn to trigger a release lever that will enable
them to feed on demand and there are self-feeders designed and built
for this purpose, although these systems fell out of favor when it was
found that some fish triggered the feed release lever to relieve
boredom, rather than to get something to eat. Automatic feeders have
had a mixed reception. They have worked well indoors on re-circulation
units but have been found to clog up in an open pond situation. The
timing of when to deliver food is also crucial and must be set to match
the feeding pond. If the feed input doesn’t match the biomass in the
pond, the result will be under or overfeeding. Underfeeding will see a
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loss of production as the dominant fish will hog the food and the others
will fall away. Overfeeding will load the water column with excess
nutrients, degrading water quality.
Hargrove et al., (2006) stated an example, that a danios need to
be fed often because they have high metabolism rates. Their high
activity level burns off food quickly. If you have a very clean system
there may not be adequate amounts of natural foods, such as algae, to
provide the fish with something to tide them over until their next
scheduled feeding. Give danios an extra feeding every day. Here are a
few examples of how some species eat (remember, this may vary
slightly depending on the age and temperament of your fish heavy
eaters like tiger barb, swordtail, Oscar, convict cichlid. Medium eaters
such as guppy, gouramis, angelfish, cory. Light eaters like balloon
mollies, bubble eye goldfish, betta, pencilfish. Non-fish manufactured
pet food is difficult for your fish to digest properly and it don’t provide
the essential amino acids and nutrients they really need.
Skomal, (2006) expounded that an animal isn’t eating right, it
won’t be healthy and strong. An unhealthy fish will be stressed. It
won’t be able to power its immune system and the door to diseases
will be wide open.
Your fish or invertebrate may not be eating right for a couple of
reasons. First, you may not be feeding it the right kinds of food or
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meeting its nutritional needs. Make every effort to offer the right foods
in terms of content, size and placement.
Another cause of poor nutrition can be associated with the
inability of the fish or invertebrate to physically get to the food.
6
B. Review of Related Studies
Companion animals bring positive health effects to their owners;
most commonly cited effects are reduced levels of stress, depression,
and even heart risk.
Mammals, especially dogs and cats, and birds have dominated
the pet scene for a very long time. Many of these are domesticated
while others, often considered novelty pets, are not. The popularity of
aquariums has been slowly migrating from Europe and Asia to North
America. New advances in low cost water filtration offer easy
maintenance for novice enthusiast.
Audet and Martin (2005) stated in their studies of Frozen Fish
feeder that an aquarium keeping is a popular hobby around the world.
The predecessor of the modern aquarium was introduced in 1850 as a
novel curiosity; since then, aquarium ownership has expanded as more
sophisticated systems including lighting and filtration systems were
developed to keep aquarium fish healthy.
Peñaflor et al., (2007) stated in their feasibility study they stated
that modern technology arises as the new devices are digitalized and
old ones are starting to modify from manually used to automate one. It
is easier, less expensive and more practical if the entire devices are
computer based rather than an analog one.
Andrino and Sacupan (2008) stated that technology is one of the
most important innovation develops by a man. Technology and
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discovery is moving on from time to time. High Technology becomes
fast and adds comfort to our daily doings, as a result.
Gutierrez et. al., (2008) described technology in their study, that
technology has affected society and its surrounding in a number of
ways. In general, “technology” is the relationship that society has with
its tools and crafts and to extent what society can control its
environment. Technology refers to tools and machines that may used
to solve real-world problems.
8
C. Conceptual Model
Figure 1 presents the conceptual framework of the study. This
paradigm helped the researchers in the development of the project it
shows three variables: the input, throughput and the output. The input
included ideas, references, supplies and materials and tools and
equipment. The throughput included designing, lay-outing,
constructing, testing and revising. The output is the completed
Automatic Aquarium Fish Feeder.
Input Throughput Output
a)
Figure 1. Conceptual Paradigm of the Study
1. Combine
Ideas
2. Tools and
Equipments
3. Supplies and
Materials
1. Designing
2. Lay-outing
3. Constructin
g
4. Testing
5. Revising
Automatic
Aquarium
Fish
Feeder
9
D. Operational Definition of Variables
This is to define a variable in terms of operations that are
used to measure it. This also allows other researchers, such as
students to perform the same or similar experiments when
investigating a phenomenon.
Vivarium. A place, such as a laboratory, where live animals or
plants are kept under conditions simulating their natural
environment, as for research.
Danios. A type of pet fish, which have a high metabolism rate.
Relay. A mechanical device being supplied with electrical
switches if the voltage will flow.
Plastic container. A raw material which can be used or recycled
after using.
Feeder. A device that releases food automatically or manually
for the pet to be able to eat.
Matrix PCB. A board which already have holes to insert the
electronic component directly and mount it using the soldering
iron.
Soldering. A process of connecting electronic devices in a PCB
or directly to the component.
LPT Port. A computer part which is connected to the computer
to send and received data being perform by the computer. It is
connected to the printer port of the system unit.
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Chapter 3
DEVELOPMENT OF THE PROJECT
This chapter presents the profile of the project, the supplies and
materials together with its costs, schematic diagrams, tools and
equipment used in the project, construction procedure, time frame in
building the project, try out and revisions and the total cost of the
Automatic Aquarium Fish Feeder.
A. Profile of the Project
The Automatic Aquarium Fish feeder has a 12V DC motor that is
connected to 12V relay switch, which is powered by a 12V AC-DC
Adapter. This is mounted on a PCB with an LPT male port to be
connected to the computer printer port. Which serve as the
microcontroller alarm clock. The project used also a recyclable empty
bottle with the bottom being sliced, to serve as food container, a
sliding door with a spring attached on it. The sliding door releases the
food that slides from the bottle. The spring serves as the force pulling
the sliding door to prevent it from rotating 360 degrees, the dimension
of the project is 2½” x 5” x 6” and weights half kilogram when it
doesn’t contain food and weights one kilogram if it have. The project
enclosure is made from plastic casing to seal the food inside the fish
feeder preventing it to decay.
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B. Supplies and Materials
The Table 1 presents the quantity, unit and description of the
supplies and materials needed for the construction of the study.
Table 1. Supplies and Materials
Quantity Unit Description
1 Piece 12V AC-DC Adapter
1 Piece Aluminum Tin Can
1 Unit Personal Computer
120 Ml Empty Plastic Bottle
1 Piece Extension Spring
1 Unit Male LPT Port
1 Piece 12V DC Motor
1 Case 6’x 8’ Plastic Casing
1 Piece 12 V Relay
2 Meters .2 Solid Wire
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C. Tools and Equipment
This Table 2 shows the tools and equipments for the construction
of the project.
Table 2. Tools and Equipment
Tools and
Equipments Description
Hand Drill
A device that has a chuck to hold the drill bit
and rotate when switch is on to make holes
on target material.
Long Nose PliersA hand tool that is used to hold object firmly
and also cut wires on one side.
CutterStripes off insulators of wires and cuts or
slices plastics.
Soldering Iron
A tool that applies heat to melt the soldering
lead to join and bond securely the electronic
parts
Soldering PumpSucks the soldering lead of the soldered
components or devices
Glue GunBonding devices that melt the glue stick to
produce hot melted glue to bond.
14
D. Construction Procedures
The construction of the Automatic Aquarium Fish Feeder is
done by the following procedures.
1. Prepare the materials and supplies needed.
2. Position the plastic case on a vertical position and mark a
circle that would exactly fit the head of the empty bottle. (A
one inch diameter)
3. Layout a 2x1” square in the left side of the plastic casing. It
should be in the 2 ½” from the bottom of the plastic casing
and mark the right side with a male LPT port. (See Figure 3 in
page 16)
4. Drill the marked circle using a hand drill.
5. Slice your 2x1” layout on the left side and the right side with a
cutter. (You can use an electronic side cutting device if you
have one.)
6. Make a sliding door with a plain plastic such as broken piece
of a ruler. Make sure that it has an allowance of ½”.
7. Layout a small hole on the right side of the 2x1” square. To fit
the rotating pin of the 12V DC motor.
8. Get an empty plastic bottle slice it with a cutter having the
measurement of 2½” from the head of empty bottle.
15
9. Cut the aluminum tin can remove the top and the bottom,
leaving you a hollow circle, cut it again to make a square. (See
Figure 4 in page 17)
10. Layout 3”x 3” square and divide into three parts. (See
Figure 4)
11. Fold the divided part of the aluminum tin can, until you
can have a U shape. This will serve as the slider of the food.
12. Glue the funnel (The slice empty bottle.) inside the plastic
casing. It should be under the hole of the one inch diameter.
The head of the empty bottle should be pointing down, using
a glue gun.
13. Glue the folded aluminum tin can in the 2x1” square holes
and in the funnel also.
14. Insert the rotating pin of the motor. (Try to rotate it and
make sure it can rotate freely, before gluing the motor.)
15. Attach the spring in the door of the feeder (A broken piece
of ruler) Attach the other end of the spring in the plastic
casing. (Try to rotate it first if it comes back like when its
close then you can fix it with a screw.) (See Figure 5 page 18.)
16. Insert the sliding door on the rotating pin of the motor. (It
should be fit and not loose. You can lock it using a toy gear or
a straw of a ball pen.)
17. Solder the components on the PCB, read the connections
as shown in Fig 2.
16
18. Lock the male LPT port in the left side using a screw.
19. Glue the PCB inside the plastic casing.
20. Get another empty plastic bottle and glue it on the top of
the plastic casing.
21. Now you have an Automatic Fish Feeder. (See Figure 6
page 19.)
Figure 2
Schematic Diagram of the Automatic Aquarium Fish Feeder
17
16
Figure 3 shows the completed structure of the project for Automatic Aquarium Fish Feeder. In the figure shows the isometric views of the project.
Figure 3. Completed Project
Front View Top View
Right Side View Left Side View
Figure 4
Lay-outing of 2”x1” square in the plastic casing.
19
20
Figure 5
Aluminum Tin Can Cutting and forming a square
Cut Section
21
Figure 6
Attaching and rotating the spring.
Spring attached to the plastic casing.
Spring attached to the sliding door.
Rotate this.
E. Try-out and Revision
During the process of constructing the project model, several
defects occur. The defects and remedies are listed in Table 3.
Table 3. Try-out and Revisions
Try-Out Revisions
Testing the motor with the closer.
The closer got slip.
Glue the motor and the closer
together with a glue gun.
The circuit connected to the
computer
The circuit is not functional
Check the LPT port if it is
connected properly or check your
components if it is soldered
properly.
The closer wont close Check for something that might
get stocked between the closer
and the opening or the spring got
loose.
The device does not react to the
program
The Printer port of the computer
might be broken.
22
F. Construction Time Frame
In Table 4 shows the Construction Time Frame of the project
study which is the planning, gathering of resources, lay-outing,
soldering, testing the components, circuit construction and creating a
program. One day is equivalent to eight hours.
Table 4. Construction Time Frame
23
G. Summary of the Sources of Cost
The total cost of the completed Automatic Aquarium Fish Feeder
is based on the expenditures for supplies and materials including other
pertinent cost. The Table 5 shows the summary of the sources of cost.
The total cost is worth Php. 444.00.
Table 5. Summary of the Sources of Cost
Description Amount
Supplies & Motor Php 444.00
Labor Php 133.2
Overhead Cost Php 88.8
Total PhP 666.00
24
25
Chapter 4
DESCRIPTION OF THE COMPLETED PROJECT
In this Chapter it describes the features, parts, functions and
interrelationship of the completed project.
A. Structure
1. Features
a. Variable quantity controls a computer/manual operation. 20
gram capacity.
b. Power Source: built-in 12 V DC adapters.
c. See-through food container for better control of quantity.
d. Easy to Clean.
e. Works with flakes or pellets.
f. Tank side mounting stand.
2. Parts and Functions
The device is composed of several parts with
different set of specification. The scope of the specification
depends on the performance required of the parts. The role
of the component parts in the written requirement was
very necessary to ensure that the finished project will
perform as expected.
3. Interrelationship of parts
The Figure 4 shows the interrelationship of parts, in the
figure computer sends a signal voltage to the relay of the project
that when the relay receives the signal voltage it will trigger and
turn the 12V DC motor on and releases the food that feeds the
fishes in the aquarium. Each component has a common path of
understandable play that we call interrelationship of the parts. It
determines the different function that is being applied from
program to circuit.
Figure 4. Interrelationship of parts
Computer Relay
AutomaticAquarium
FishFeeder
26
The table below describes the functions of the major component
parts of the project.
Functions of the major components
Component Parts Functions
DeviceWhere in the circuit are implanted
and the one who will be working.
Programming Language
Computer software on which control
the device to adjust its function and
work properly.
Computer
A storage device where in the
device software being installed
with.
AC-DC AdapterGives voltage supply to motor to
make it work.
LPT Port
Which connects the Computer and
the device properly and to make
the device functional.
DC Motor
Allowing the rotating door of a
device to widely open and work
properly.
Relay
A switch in which allow the motor to
accelerate according to the given
data of the user.
27
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Chapter 5
SUMMARY, RECOMMENDATION AND CONCLUSION
A. Summary
The present study has been made in an effort to provide an
advance technology that could help our country as well as the
local aqua culturist, hobbyist and businessmen in providing a
well nourished fishes in the market. The feeder will feed the fish
on the number of times it would be feed to maintain the stability
of metabolism for the fishes.
B. Conclusion
The purpose of the study is to design and construct an
Automatic Aquarium Fish Feeder which the functionality would
be a great ease to the hobbyist. Defects and revisions are
studied carefully to obtain this project.
C. Recommendation
There will be a lot of developments in terms of automation
and electronic information system. Furthermore the search for
effective technology is notable.
The Automatic Aquarium Fish Feeder is a helpful device for
those people who love pets. It could also be used as a learning
guide for further related studies. It can be developed by having it
self-timer rather than computer controlled.
Now that this project is completed it is recommended:
At Home: This project is intended for pet lovers at home
who have busy times and spend only small periods of their
time at home, but do love to see fishes swimming on the
aquarium.
At Business: Businessmen will have more time computing
their income without worrying on their fish’s health. That
they believe as the lucky charms on their business.
At School: The Automatic Aquarium Fish Feeder can be
used as tool of learning and as a guide for future related
studies. It can be developed by the next researchers and
developers for the improvement of the gadget.
29
Bibliography
A. Book
Gregory Skomal, 2006. Freshwater Aquariums for Dummies Edition2.
Publisher for Dummies.
2006 Saltwater Aquariums for Dummies, 2nd Edition, Published by Wiley
Publishing, Inc.
F. Fuller, 2004. The encyclopedia of farm animal nutrition, CABI
Publishing Series.
B. Internet
http://saltaquarium.about.com/od/toppicks/tp/TPautofeeders.htm
http://www.aquariumfish.net/information/feeding_fish_2.htm
http://www.aqua-fish.net/show.php?h=automaticfishfeeders
http://www.aquariumguys.com/feeders.html
http://www.instructables.com/automaticfishfeeder.htm
30
CURRICULUM
VITAE
31
Khamar B. Batara
42. Quezon Blvd. Davao City
09199842433
PERSONAL INFORMATION
Sex : MaleAge : 20Birth date : March 13, 1989Birthplace : Davao CityCitizenship : FilipinoCivil Status : Single
EDUCATIONAL ATTAINMENT
Elementary : Barcelona Elem. School
High School : Sta. Ana National High School
College : University of Southeastern Philippines
Course : Bachelor in Computer Technology
SKILLS AND APPLICATION USED
Ms Office AutoCAD Borland C++
32
Jeffrey M. Maceda
Km. 12, Sasa Davao City
09294627297
PERSONAL INFORMATION
Sex : MaleAge : 22Birth date : Nov. 29, 1986Birthplace : Davao CityCitizenship : FilipinoCivil Status : Single
EDUCATIONAL ATTAINMENT
Elementary : Davao Special Learning Center
High School : Holy Cross Academy of Sasa
College : University of Southeastern Philippines
Course : Bachelor in Computer Technology
SKILLS AND APPLICATION USED
MS Office Borland C++ AutoCAD Drafting
33
John Martin B. Valero
296-3 Villamor St. Jacinto Ext. Davao City
09106854485
PERSONAL INFORMATION
Sex : Male Age : 20Birth date : May 18, 1990Birthplace : Davao CityCitizenship : FilipinoCivil Status : Single
EDUCATIONAL ATTAINMENT
Elementary : F. Serrano Sr. Elem. School
High School : Thompson Christian School
College : University of Southeastern Philippines
Course : Bachelor in Computer Technology
SKILLS AND APPLICATION USED
Picture Editing AutoCAD Encoding
34
Aaron Oliver R. Banguis
Phase 2A, Blk. 16; Lot 3 La Verna Hills Subd. Davao City
09283486923
PERSONAL INFORMATION
Sex : MaleAge : 19Birth date : April 1, 1990Birthplace : Davao CityCitizenship : FilipinoCivil Status : Single
EDUCATIONAL ATTAINMENT
Elementary : Buhangin Central Elem. School
High School : Bernardo D. Carpio National High School
College : University of Southeastern Philippines
Course : Bachelor in Computer Technology
SKILLS AND APPLICATION USED
MsOffice Visual Basic Encoding
35
Jean G. Parohinog
Buhangin Davao City
09099025164
PERSONAL INFORMATION
Sex : FemaleAge : 19Birth date : February 20, 1990Birthplace : Davao CityCitizenship : FilipinoCivil Status : Single
EDUCATIONAL ATTAINMENT
Elementary : Gredu Elementary School
High School : Panabo National High School
College : University of Southeastern Philippines
Course : Bachelor in Computer Technology
SKILLS AND APPLICATION USED
MsOffice AutoCAD Encoding
36